]1[ نبوی م. ح. "دیباچه ای بر زمین شناسی ایران"، سازمان زمین شناسی کشور، (1355)، 381 ص.
[2] Stocklin J. “Stratigraphic Lexicon of Iran. Part 1: Central, North and East Iran”, Geological Survey of Iran, 18 (1971) 1-338.
[3] Gilg H.A., Boni M., Balassone G., Allen C.R., Banks D., Moore F. “Marble-hosted sulfide ores in the Angouran Zn-(Pb–Ag) deposit, NW Iran: interaction of sedimentary brines with a metamorphic core complex”, Mineral Deposita, 41 (2006) 1–16.
]4[ بهروز ع.، امینی فضل ع.، امینی آذر ج.، "نقشه زمین شناسی بستان آباد در مقیاس 100000/1"، سازمان زمین شناسی کشور (1374).
]5[ معین وزیری ح.، امین سبحانی ا.، "سهند از دیدگاه ولکانولوژی و ولکانوسدیمانتولوژی"، انتشارات دانشگاه تربیت معلم، (1356)، 59 ص.
]6[ پیرمحمدی ف.، "پترولوژی، ژئوشیمی و پتروژنز سنگهای آتشفشانی شرق و جنوب شرق آتشفشان سهند با نگرشی ویژه بر سنگهای آذرآواری"، رساله دکتری، دانشگاه تبریز، (1390) 195ص.
]7[ وصالی خضرلو ی.، "بررسی پترولوژی و پتروگرافی سنگهای آتشفشانی آروانه کوه (شرق سهند)"، پایاننامه کارشناسی ارشد، دانشگاه تبریز، (1391) 117 ص.
[8] Nelson S.T., Montana A., “Sieve-textured plagioclase in volcanic rocks produced by rapid decompression”, American Mineralogist, 77 (1992) 1242-1249.
]9[ معین وزیری ح.، احمدی ع.، "پترولوژی و پتروگرافی سنگهای آذرین"، انتشارات دانشگاه تربیت معلم، (1371) 539 ص.
[10] Shelly D., “Igneous and metamorphic rocks under the microscope”, Chapman and Hall, (1993) pp 405.
[11] Kretz R., “Symbols for rock forming minerals”, American mineralogist, 68 (1983) 277-279.
[12] Deer W., Howie R.A., Zumssman J., “An in troduction to the Rock forming minerals”, John Wiley and Sons, Inc. New York, 2nd , (1992) PP 696.
[13] Partin E., Hewitt D.A., Wones D.R., “Quantification of ferric iron in biotite: Mineralogy and Petrology”, 41 (1983) 41-52.
[14] Abbott R.N., Clarke D.B., “Hypothetical liquidus relationships in the subsystem Al2O3-FeO-MgO projected from quartz, alkali feldspar and plagioclase for a (H2O) = l”, Canadian Mineralogist, 17 (1979) 549-560.
[15] Abdel – Rahman A.M., "Nature of biotites from alkaline, calc-alkaline and peraluminous magmas", Journal of Petrology, 35(1994) 525–541.
[16] Lalonde A., Bernard P., “Composition and color of biotite from granites: Two useful properties in thecharacterization of plutonic suites from the Hepburn internal zone of Wopmay orogen, NW Territories”, CanadianMineralogist, 31 (1993) 203-217
[17] De Pieri R., Jobstraibizer P.G., “Crystal chemistry of biotite from dioritic to granodioritic rock type of Adamello massif (Northern Italy)”, Neues Jahrbuch für Mineralogy (Abhandlungen), 148 (1983) 58-82.
[18] Forster C.D., “Interpretation of the composition of trioctahedral mica”. United State Geological Survey, Professional Paper, Neues Jahrbuch für Mineralogy (Abhandlungen), 354 (1960) 11-49.
[19] Nachite H., Ibhi A., Abia E.H., Ohoud M.B., “Discrimination between primary magmatic biotites, reequilibrated biotites and neoformed biotites, Geomateriala (Mineralogy)”, Comptes Rendus Geosciences, 337 (2005) 1415-1420
[20] De Albuquerque. C.A.R., “Geochemistry of biotites from granitic rocks, northern Portugal”, Geochimica Et Cosmochimica Acta, 37 (1973) 1779-1802.
[21] Wones D.R., Eugster H.P., “Stability of biotite: experiment, theory, and application”, American Mineralogist, 50 (1965) 1228-1272.
[22] Castro A., Stephen W.E., “Amphibole rich clots in calcalkalin granitic rocks and their Enclaves”, Canadian Mineralogist, 30 (1992) 1093-1112.
[23] Nockolds S.R., “Average chemical compositions of some igneous rocks”, Geological Soiety of America, 65 (1954) 1007-1032.
[24] Leake B.E., “On aluminous and edenitic homblendes”, Mineralogical Magazine, 38 (1971) 389-407.
[25] Leake B.E., Woolly A.R., Arps C.E.S., Birch W.D., Gilbert M.C., Grice J.D., Awthorne F.C., Kato A., Kisch H.J., Krivovichev V.G., Linthout K., Laird J., Mandarino J., Maresch W.V., Nickel E.H., Rock N.M.S., Schmucher J.C., Smith D. C., Stephenson N.C.N., Unungaretti L., Whittaker E.J.W., Youzhi G., “Nomenclature of Amphiboles, Report of the Subcommittee on Amphiboles of the International Mineralogical Association Commission on New Minerals Names”, Europian Journal of Mineralogy, 9 (1997) 623-651.
[26] Clemens J.D., Wall V.J., “Origin and evolution of a peraluminous silicic ignimbrite suite: the Violet Town Volcanics”, Contribution to Mineralogy and Petrology, 88 (1984) 354-371.
[27] Wyborn D., Chappel B.W., Johnston R.M., “Three S type volcanic suites from the Lachlan Fold Belt, Southeast Australia”, Journal of Geophysics Research, 86 (1981) 10335-10348.
[28] Chappell B.W., White A.J.R., “Two contrasting granite types”, Pacific Geology, 8 (1974) 173-174.
[29] Christopher R.V., Harry V.M., “Hornblende chemistery in southern Appalachain granitolds: Implication for aluminum hornblend thermobarometry and magmatie epidote stability”, American Mineralogist, 76 (1991) 176-189.
[30] Anderson J.L., Smith D.R., “The effects of temperature and fO2 on the Al-in hornblende barometer”, American Mineralogist, 80 (1995) 549-559.
[31] Hawthorne F.C., Oberti R., Della Ventura G., Mottana A., “Amphiboles: crystal chemistry, occurrence and health issues”, Mineralogical Society of America, 67 (2007) 567.
[32] Coltorti M., Bonadiman C., Faccini B., Grégoire M., O'Reilly S.Y., Powell W., “Amphibole from suprasubduction and intraplate litospheric mantle”, Lithos, (2007) doi: 10.1016/j.lithos.2007.05.009.
[33] Miyashiro A., “Volcanic rock series in island arcs and active continental margins”, American Journal of Science, 274 (1974) 321-355.
[34] Ghent E.D., Nicholls J., Siminy P.S., Sevigny H.H., Stout M. Z., “Hornblende geobarometry of the Nelson Batholite, South eastern British Columbia: tectonic implication”, Canadian Journal of Earth Science, 28 (1991) 1982-1991.
[35] Nachite H., “Contribution a letude analytiue et experimental des biotites des granitoids applications typologiques”, These de Doctorate De L, univesite/ de Bretagne accidental, (1986) pp 235.
[36] Blundy J., Holland T., “Calcic amphibole equilibria and a new amphibole-plagioclase Geothermometer”, Contributions to Mineralogy and Petrology, 104 (1990) 208-224.
[37] Hammarstrom J.M., Zen E., “Aluminum in hornblende: An empirical igneous Geobarometer”, American Mineralogist, 71 (1986) 1297-1313.
[38] Hollister L.S., Grissom G.E., Peters E.K., Stowell H.H., Sisson V.R., “Confirmation of the empirical correlation of Al in hornblende with pressure of solidification of calc-alkaline plutons”, American Mineralogist, 72 (1987) 231-239.
[39] Helmy H.M., Ahmed A.F., El Mahallawi M.M., Ali S. M., “Pressure, temperature and oxygen fugacity conditions of calc-alkaline granitoids, Eastern Desert of Egypt, and tectonic implications”, Journal of African Earth Sciences, 38 (2004) 255–268.
[40] Schmidt M.W., “Amphibole composition in tonalite as a function of peressur: an experimental calibration of the Al in hornblende barometer”, Contributions to Mineralogy and Petrology, 115 (1992) 304-310.
[41] Stein E., Dietl G., “Hornblende thcrmobarometry of granitoids from the Central oden wald (Germany) and their implication for the geotectonic development to of the Odenwald”, Mineralogy and Petrology, 72 (2001) 185-207.
[42] Holland T., Blundy J., “Non ideal interactions in calcic amphiboles and their bearing on amphibole–plagioclase thermometry”, Contributions to Mineralogy and Petrology, 116 (1994) 433– 447.
[43] Rieder M., Cavazzini G., Yakonov Y.D., Frank-Kanetskii V.A., Gottardi G., Guggenheim S., Koval P.V., Muller G., Neiva A.M.R., Radoslovich E.W., Robert J.L., Sassi F.P., Takeda H., Weiss Z., Wones D.R., “Nomenclature of the micas”, Canadian Mineralogist, 36 (1998) 905–912.
[44] Abrecht J., Hewitt D.A., “Experimental evidence on the substitution of Ti in biotite”, American Mineralogist, 73 (1988) 275-1284.
[45] Henry D.J., Guidotti C.V., Thomson J.A., “The Ti-saturation surface for low-tomedium pressure metapelitic biotites: implications for
geothermometry and Ti-substitution mechanisms”, American Mineralogist, 90 (2005) 316-328.
[46] Anderson J.L., “Proterozoic anorogenic granite plutonism of North American”, Geological Society of America Memoir, 161 (1983) 133-152.
[47] Helz R., “Phase reactions of basalts in their melting range at PH2O=5kbar, part II, Melt Composition”, Journal of Petrology, 17 (1993) 139-193.
[48] Otten M.T., “The origin of brown hornblende in Artfjallet gabbro and Dolerites”, Contribution to Mineralogy and Petrology, 86 (1984) 189-199.
[49] Ernst W. G., Liu J., “Experimental phase-equilibrium study of Al- and Ti- content of calcic amphibole in MORB-a semiquantative thermobarometer”, American Mineralogist, 83 (1998) 925-969.
)